Fast Solar Sailing
Astrodynamics of Special Sailcraft Trajectories

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The range of solar sailing is very vast; it is a fully in-space means of propulsion that should allow us to accomplish various mission classes that are literally impossible using rocket propulsion, no matter if nuclear or electric. Fast and very fast solar sailings are special classes of sailcraft missions, initially developed only in the first half of the 1990s and still evolving, especially after the latest advances in nanotechnology.

This book describes how to plan, compute and optimize the trajectories of sailcraft with speeds considerably higher than 100 km/s; such sailcraft would be able to explore the outer heliosphere, the near interstellar medium and the solar gravitational lens (550-800 astronomical units) in times significantly shorter than the span of an average career (~ 35 years), just to cite a few examples. The scientific interest in this type of exploration is huge.

Info autore

Giovanni Vulpetti received his Ph.D. in plasma physics in 1973. Subsequently, he specialized in astrodynamics. He wrote many tens of scientific papers about astrodynamics, advanced propulsion concepts, and interstellar flight, with particular regard to matter-antimatter annihilation propulsion. In 1979, he joined Telespazio SpA (Rome, Italy). From 1995 to 2011, he has attended the committee for Lunar Base & Mars exploration of the International Academy of Astronautics (IAA). He has been involving in solar-photon sailing since 1992. In the 1990s, he found out new types of sailcraft trajectories and published his theory mainly on Acta Astronautica, JPL workshops, and IAA symposia. In 1994, he was elected a Full Member of IAA. In spring 1997, he was a consultant at ESA/ESTEC about the solar-sail mission concept Daedalus. In 1979-2004, he contributed to 11 Italian and European space programs. In 2001, he was a  consultant at NASA/MSFC for the NASA Interstellar Probe. In the course of two decades, he accomplished some large computer codes devoted to mission analysis & trajectory optimization via rockets and/or solar-sails. In the 90s, he was a member of the IAA committee for small satellites and, consequently, he participated in the design of Telespazio TemiSat (launched in August 1993). During 2006-2007, he joined Galilean Plus (Rome, Italy) as chief scientist, and participated in the program of the Italian Space Agency for lunar explorations. To date, he has published about 120 research papers and reports. He was a COSPAR-Associate in 2002-2007. In 2009 and 2014, he served as managing guest editor of Acta Astronautica special issues. He wrote the book Fast Solar Sailing, Astrodynamics of Special Sailcraft Trajectories, Space Technology Library 30, Springer 2012. Since spring 2013, he has been a guest lecturer on the physics of in-space propulsion at the Dept. of Astronautical Engineering of University of Rome 'La Sapienza'.
 Les Johnson is a physicist at NASA's Marshall Space Flight Center in Huntsville, Alabama, where he serves as the Senior Technical Advisor for the Advanced Concepts Office.  He was a Co-Investigator on the Japanese T-Rex space tether experiment, the Principal Investigator of the NASA ProSEDS mission, and the first manager of NASA's In-Space Propulsion Technology Project.  He holds three patents and was thrice awarded NASA's Exceptional Achievement Medal.  He is a TEDx speaker, was the featured "interstellar explorer" in National Geographic's January 2013 issue, and a member of the Advisory Board for The Journal of the British Interplanetary Society.  Les and his wife, Carol, have two children and live in Madison, Alabama (a satellite community of Huntsville - the original "Rocket City, USA!").
Greg Matloff  is a leading expert in possibilities for interstellar propulsion , especially  near-Sun solar-sail trajectories that might ultimately enable interstellar travel, and is an astronomy professor with the physics department of New York City College of Technology, CUNY, a consultant with NASA Marshall Space Flight Center, a Hayden Associate of the American Museum of Natural History and a Member of the International Academy of Astronautics. He co-authored with Les Johnson of NASA and C Bangs Paradise Regained (2009), Living Off the Land in Space (2007) and has authored Deep-Space Probes (edition 1: 2000 and edition 2: 2005).  As well as authoring More Telescope Power (2002), Telescope Power (1993), The Urban Astronomer (1991), he co-authored with Eugene Mallove The Starflight Handbook. (1989). His papers on interstellar travel, the search for extraterrestrial artifacts, and methods of protecting Earth from asteroid impacts have been published in JBIS, Acta Astronautica, Spaceflight, ,Space Technology,  Journal of Astronautical Sciences, and Mercury. His popular articleshave appeared in many publications, including Analog and IEEE Spectrum. In 1998, he won a $5000 prize in the international essay contest o

Riassunto

The range of solar sailing is very vast; it is a fully in-space means of propulsion that should allow us to accomplish various mission classes that are literally impossible using rocket propulsion, no matter if nuclear or electric. Fast and very fast solar sailings are special classes of sailcraft missions, initially developed only in the first half of the 1990s and still evolving, especially after the latest advances in nanotechnology.



This book describes how to plan, compute and optimize the trajectories of sailcraft with speeds considerably higher than 100 km/s; such sailcraft would be able to explore the outer heliosphere, the near interstellar medium and the solar gravitational lens (550-800 astronomical units) in times significantly shorter than the span of an average career (~ 35 years), just to cite a few examples. The scientific interest in this type of exploration is huge.